Depolarizer



Patented June 19, 1923.

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130315 E. rnrrELBAuM, or esooxrrn, new YORK, Assrenon ro i 3 331 33 91 BBooxLru, new Yoax. 7

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Original application filed December 8, 1919, Serial No. 342,242. Divided and this epplleation filed No Drawing.

To all whom it may concern:

Be it known that I, Bolus H. TErrEL AUM, a citizen of the United States, and. resident of the city of New York, borough of Brook e lyn, county of Kings, and State of New York, have invented a new and Improved Depolarizer, of which the following is a.

full, clear, and exact description.

This invention relates to improvements in 10 'depolarizers, havingreference more particularly to a. dry battery, including zinc chloride as an'ingredient in the electrolyte, and is a division of an application on a dry cell filed by me upon December -3, 1919, Serial #342242. a

An object of this invention is to provide a dry "battery which willhave a low internal resistance and consequently a high short circuit amperage.

Another object of this invention is to provide a dry batteryiwhich'will have a large service capacity and which will remain out of servicefor a long period of time without deterioration.

and also in the depolarizing mixture, decreases the rapid consumption of the zinc electrode, by the sal ammoniac when the baty the solution tension of the zinc in the solution of sal ammoniac is counterbalanced by the osmotic pressure of the zinc ions in the solution of sal ammoniac. It is thought that the zinc chloride in the solution of sal ammoniac also. revents local action on the zinc electrode. owever, heretofore the zinc chloride has been added to the electrolyte in very large proportions, and as a result insoluble zinc hydroxide and double salts of zinc are formed which precipitate from theelectrolyte and clog up the intersticesin the depolarizing core so that the internal resistance of the dry battery is rapidly increased in use, thus rapidly diminishing the short circuit amperage. The clogging of the depolarizing core by these insoluble salts also revents the passage of the ammonia gas generated in the battery so that said battery often bursts. I sorb some moisture from the paste their formation so that the moisture content in the electrolyte is diminished.

It is known that the primary reaction which occurs in a dry battery having a zinc December 22, 1920.

-It has been found that the use of zinc chloride in the electrolyte of a dry battery is not 1n service, owing to the fact that These insoluble salts also ab Serial No. 432,602

electrode, and an electrolyte containing ammoniac, is as follows: ennpl plus Zn 2 Cl plus Zn'(OH) This zinc hydroxide precipitates and eventually clogs up the interstices of the depolarizin core so that the internal resistance of t e dry battery is greatly increased.

1 have found by experimentthat when zinc is brought into contact with an aqueous solution of its salts such as'zinc chloride of any concentration, whatever, there iS neither a perceptible passage of zinc into solution, nor a deposition of zinc from the solution. Thus it seems that even small percentages of zinc chloride in a solution will prevent the zinc from going into solution and will also revent the phenomenon commonly known as local action. This fact is probablydue to some electro-chemical relations between the zinc and its salt. I

As the. result ofa series of experiments, I have arrived at the following proportions formaking my electrolytic paste and depolarizing core so as to avoid an excess of zinc chloride. Y Zinc chloride free from iron is dissolved in distilled water until a specific gravity of 1.25 or a Baum test of 29 de rees is reached. At a temperature of about 0 degrees Fahrenheit the solution will now be found to contain 26.36% of zinc chloride. The .solution is filtered to t rid of the insoluble impurities in the sail? and for each parts by. weight of the filtrate, a gram molecular not aflord an excess of the Z1110 chloride so weight or that no insoluble hydroxide or double salts of zinc are formed.

In'the compounding of the depolarizing mixture heretofore, a very finemanganese dishort circuit amperage of the battery. Also when a very fine manganese dioxide powder is molded under the noncontrolled pressure of the human hand or of machines in use at present, a depolarizing core is formed which is not porous enough to afford passage to the gases generated, so that the battery fre'-' quently bursts. I have heretofore found that the most ideal grain size of manganese dioxide which can be used is one in which the grains will pass through a sieve having forty meshes to the linear inch, but will be retamed on a fifty mesh sieve. I then mixthe manganese dioxide thoroughly with a suitable quantity of granular graphite of the same size, said graphite serving to increase the conductivity of the mixture. I

then subject the mixture, of manganese dioxide and graphite to a current of hot air at a temperature of 80-100 degrees C. which will drive ofi' any volatile matter which may be present in the mixture without decomposing the manganese dioxide. The mixture of manganese dioxide and graphite is then cooled and moistened with a mixture of'the aforementioned zinc chlorideammonium chloride solution, and one partby weight of glacial acetic acid The slight amount of organic matter present in the manganese dioxide dissolves in the acetic acid and reduces the internal resistance of the battery, thereby increasing the short circuit amperage thereof. After the graphite-manganese dioxide mixture is treated in the aforementioned manner, it is molded into shape around a stick of carbon which serves as the positive electrode of the battery. 7

I would state in conclusion that while the described example constitutes a practical emhodiment of my invention, I do ;not limit myself strictly to the aforementioned details, since manifestly the same can be considerahly varied without departure from the spirit of the invention, as defined in the appended claims.

I claim; 1. A dry battery provided with a depolarizing m xture containing rainsof manganese dioxide of, a size smal enough to pass through a sieve havin 40 meshes per linear inch, but large enougi to be retained by a sieve having 50 meshes per'linear. inch.

7 2. A step in the process for making a depolarizing mixture for a dry battery, which consists in mixin granular graphite with manganese dioxi e composedof grains of such size as to pass through a sieve having 40 meshes to the linear inch, but to he retained on a sieve having 50 meshes to the linear inch, and subjecting the'mixture of manganese dioxide and graphite to a current of hot air at a temperature of from 80 to 100 degrees 0., v

BORIS H. TEITELBAUM. 

